US10856779B2 - Apparatus, method and software application for physical coaching - Google Patents

Apparatus, method and software application for physical coaching Download PDF

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US10856779B2
US10856779B2 US16/500,616 US201816500616A US10856779B2 US 10856779 B2 US10856779 B2 US 10856779B2 US 201816500616 A US201816500616 A US 201816500616A US 10856779 B2 US10856779 B2 US 10856779B2
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test
equipment box
reaction
supporting equipment
person
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US20200029864A1 (en
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Arto RUOKONEN
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Sorvi Consulting Oy
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Sorvi Consulting Oy
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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/16Devices for psychotechnics; Testing reaction times ; Devices for evaluating the psychological state
    • A61B5/162Testing reaction times
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/103Detecting, measuring or recording devices for testing the shape, pattern, colour, size or movement of the body or parts thereof, for diagnostic purposes
    • A61B5/11Measuring movement of the entire body or parts thereof, e.g. head or hand tremor, mobility of a limb
    • A61B5/1118Determining activity level
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/0002Remote monitoring of patients using telemetry, e.g. transmission of vital signals via a communication network
    • A61B5/0015Remote monitoring of patients using telemetry, e.g. transmission of vital signals via a communication network characterised by features of the telemetry system
    • A61B5/0022Monitoring a patient using a global network, e.g. telephone networks, internet
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/0059Measuring for diagnostic purposes; Identification of persons using light, e.g. diagnosis by transillumination, diascopy, fluorescence
    • A61B5/0077Devices for viewing the surface of the body, e.g. camera, magnifying lens
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/103Detecting, measuring or recording devices for testing the shape, pattern, colour, size or movement of the body or parts thereof, for diagnostic purposes
    • A61B5/11Measuring movement of the entire body or parts thereof, e.g. head or hand tremor, mobility of a limb
    • A61B5/1126Measuring movement of the entire body or parts thereof, e.g. head or hand tremor, mobility of a limb using a particular sensing technique
    • A61B5/1128Measuring movement of the entire body or parts thereof, e.g. head or hand tremor, mobility of a limb using a particular sensing technique using image analysis
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63BAPPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
    • A63B24/00Electric or electronic controls for exercising apparatus of preceding groups; Controlling or monitoring of exercises, sportive games, training or athletic performances
    • A63B24/0062Monitoring athletic performances, e.g. for determining the work of a user on an exercise apparatus, the completed jogging or cycling distance
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09BEDUCATIONAL OR DEMONSTRATION APPLIANCES; APPLIANCES FOR TEACHING, OR COMMUNICATING WITH, THE BLIND, DEAF OR MUTE; MODELS; PLANETARIA; GLOBES; MAPS; DIAGRAMS
    • G09B19/00Teaching not covered by other main groups of this subclass
    • G09B19/003Repetitive work cycles; Sequence of movements

Definitions

  • the invention relates to an optoelectronic apparatus for measuring a ground contact and reaction time of a foot within a predetermined measurement region.
  • the apparatus is adapted to perform tests needed for determining a fitness of an individual.
  • the invention relates also to a computer program product implementing the method steps utilized during a measurement situation.
  • This information may be utilized to evaluate for example the average developed energy and other biomechanical parameters.
  • the above-mentioned jump test may be accomplished by utilizing a measurement system including a computer provided with a chronometer program and a special jump mat.
  • the size of the jump mat may have a size for example of 1 m ⁇ 1 m.
  • the jump mat may comprise several capacitive sensors spaced from one another by some centimetres. The person accomplishing the test must therefore perform the jumps on the jump mat. The person may make vertical jumps, drop jumps and repetitive jumps. When a person jumps on the jump mat both in the exertion phase and in the landing phase, the capacitive sensors of the jump mat generates an electronic signal that is transferred to the computer to be utilized in a performance analysis. From the measurement results may be calculated for example a height of a jump, reaction time or contact times between repetitive jumps.
  • the measurement system discloses two measurement bars.
  • the dimensions of the measurement bars are 1000 ⁇ 25 ⁇ 25 mm.
  • the measurement bars are arranged in parallel and face each other on a flat and smooth measurement surface.
  • the measurement bars define a measurement area.
  • the two measurement bars are spaced from one another by approximately no more than 3 meters.
  • the measurement bars have an electrical connection. A connecting branches off from said electrical connection to a chronometer utilized in the measurement system.
  • the measurement bars differ from each other.
  • One measurement bar discloses several optical transmitters and the other measurement bar discloses optical receivers.
  • the functioning of the depicted measurement system requires that said measurement bars must be erected such a way that each one of the optical receivers of the receiver measurement bar can receive transmission only from one optical transmitter of the opposite located transmitter measurement bar. Therefore the measurement system of U.S. Pat. No. 5,760,389 must be erected on a flat smooth surface. If the utilized surface in a measurement place is not a flat and smooth then the measurement system does not function properly.
  • the object of the present invention is to provide a measurement system, an apparatus and computer program by which measurements needed to evaluate a degree of preparation of a person can be made on any surface.
  • the objects of the invention are attained with an optical measurement system where boundaries of a measurement reaction area or reaction lines are projected by a projector utilizing visible light on a surface.
  • a second optical transmitter scans the reaction area advantageously by infrared light.
  • a camera unit receives pictures from body parts located inside the boundaries of the reaction area or crossing the reaction lines.
  • a computer unit of the measurement system calculates from the camera pictures a place of the body part and a direction and movement speed of the body part. From these calculation results a contact time and reaction time of the person to be tested can be evaluated. From these measurement results can be analysed several physical performance characteristics of the tested person.
  • An aspect of the invention is an optical measurement system for coaching an individual, the optical measurement system comprising a cloud database, a wireless communication device and a vertical self-supporting equipment box comprising a data processing device configured to measure ground contact and/or reaction time and position of a body part of a person within a predetermined reaction area, wherein that self-supporting equipment box comprises
  • Another aspect of the invention is a vertical self-supporting equipment box configured to be utilized in measuring ground contact and/or reaction time of a person on a reaction area, wherein the self-supporting equipment box comprises
  • a third aspect of the invention is a method for measuring ground contact and/or reaction time of a person on a reaction area, wherein the method comprises following steps:
  • a fourth aspect of the invention is a computer program product comprising computer program code means adapted to perform the following program code steps when said program is executed on a processor of a data processing device, wherein the computer program comprises
  • An advantage of the invention is that the measurement of contact and reaction times of a person to be tested can be made on any surface.
  • Another advantage of the invention is that the measurement system is lightweight and movable.
  • a further advantage of the invention is that the measurement system is easy to use.
  • FIG. 1 a shows schematically the optical performance measurement arrangement according to a first embodiment of the invention
  • FIG. 1 b shows schematically the optical performance measurement arrangement according to a second embodiment of the invention
  • FIG. 1 c shows schematically the optical performance measurement arrangement according to a third embodiment of the invention
  • FIG. 2 shows schematically an installation of an equipment box on the ground belonging to the optical measurement arrangement according to the invention
  • FIG. 3 shows the main electronic elements installed in the equipment box by way of example
  • FIG. 4 shows as an exemplary a flow chart the main operational steps of a reaction time measurement according to the invention.
  • FIG. 5 shows as an exemplary a flow chart the main operational steps of a speed or acceleration measurement according to the invention.
  • FIG. 1 a depicts an optical measurement system 10 according to the invention that may be utilized for coaching an individual, for example an athletic.
  • the depicted optical measurement system 10 may be utilized also in other tests for example in following coaching cases: testing physiological recovery of a person, different kind of jump tests, elasticity test, explosive strength test, reaction time test, T-test, ground contact time, stride angle, speed and explosive strength, quickness and agility, step length, unbalance index and body composition.
  • the optical measurement system 10 for coaching advantageously comprises a self-supporting equipment box 2 comprising three optical measurement devices 3 , 4 and 5 , a wireless communication device 7 and a cloud database 8 for storing measurement results.
  • the self-supporting equipment box has a greater vertical direction than a horizontal direction and therefore in the following description the self-supporting equipment box may be also called a vertical self-supporting equipment box.
  • the wireless communication device 7 may be a mobile phone such as a prior art GSM, GPRS or UMTS terminal device, a tablet, a laptop computer or a personal digital assistant for example.
  • the wireless communication device 7 may be utilized to control measurement sessions of the optical measurement system 10 . It advantageously also functions as a communication repeater that transmits measurement results from a data processing device 20 ( FIGS. 2 and 3 ) of the vertical self-supporting equipment box 2 to the cloud database 8 .
  • the exemplary vertical self-supporting equipment box 2 in FIG. 1 a advantageously comprises four walls or sides and at least one of them is essentially a plane-like vertical side 2 c .
  • On the vertical side 2 c are advantageously installed three optical measurement devices that are needed in the measurements: a reaction area pattern projector 4 that draws boundary lines 6 a of the reaction area 6 , a camera 3 and a monochromatic light source 5 .
  • the pattern projector 4 draws boundary lines 6 a of a reaction area 6 on the ground surface 9 ( FIG. 2 ).
  • the pattern projector 4 may also draw text or logo of the apparatus on the reaction area 6 .
  • the pattern projector 4 utilizes a predetermined band of visible light 4 a .
  • FIG. 1 a it can be seen that a person 1 is running or jumping on the reaction area 6 whose boundary lines 6 a are visible to the person 1 .
  • the utilized predetermined band 4 a of light is visible to humans on any surface. Therefore the ground surface 9 may be an even floor or uneven sport field, for example a football arena.
  • a technical effect of the present invention is that the surface 9 , on which the reaction area 6 may be imaged, need not to be even or horizontal.
  • the reaction area 6 is illuminated also from a monochromatic light source 5 that may be a laser for example.
  • the monochromatic light source 5 is advantageously on the same vertical side of the vertical self-supporting equipment box 2 as the pattern projector 4 .
  • the monochromatic light source 5 illuminates at least the whole reaction area 6 with a wave length 5 a that advantageously is outside the predetermined band of visible light 4 a that the pattern projector 4 utilizes.
  • Movements of a foot 1 a of the person 1 are advantageously detected by the camera 3 .
  • the camera 3 is located advantageously on the same vertical side of the self-supporting equipment box 2 as the pattern projector 4 and monochromatic light source 5 .
  • Camera 3 may be located either above, below or beside the pattern projector 4 . However the camera 3 is above a plane that monochromatic light source illuminates above the ground 9 .
  • the camera 3 can advantageously take pictures at least a wave length 3 a that is equal as the wave length 5 a that the monochromatic light source 5 transmits.
  • the camera 3 is an infrared light camera.
  • the invention is not limited to utilize an infrared light camera. Also a camera functioning on visible light band may be utilized.
  • the operating rate of the camera 3 is high enough to detect a contact time of the foot 1 a of the person 1 on a surface of the reaction area 6 .
  • the operating rate of the camera may advantageously be only some p seconds.
  • the ground contact time calculation begins when the foot 1 a comes from above and touches the ground 9 .
  • the camera 3 detects this event when the foot 1 a intersects the illuminated plane that the monochromatic light source 5 has imaged above the reaction area 6 .
  • the ending time of the ground contact time the camera 3 detects when the foot 1 a rises from the ground surface above the illuminated plane that the monochromatic light source 5 has imaged above the reaction area 6 .
  • the vertical self-supporting equipment box 2 comprises also at least two signal lights 2 a and 2 b .
  • the signal lights are installed on an upper horizontal side 2 d of the vertical self-supporting equipment box 2 .
  • the signal light 2 a may generate a light signal to left as seen from the position of the person 1 .
  • the signal light 2 b may generate a light signal to right as seen from the position of the person 1 .
  • the person 1 gets a movement direction command by one or the other signal light.
  • test known in the art that may be accomplished by the optical measurement system 10 depicted in FIG. 1 a are shortly depicted next.
  • the ground contact time calculation begins when the foot 1 a rises from the ground surface of the reaction area 6 .
  • the ending time of the ground contact time measurement the camera 3 detects when the foot 1 a comes from above and touches the ground 9 .
  • the camera 3 detects these two measurement events when the foot 1 a intersects the illuminated plane that the monochromatic light source 5 has imaged above the reaction area 6 .
  • SJ static jump test
  • the person 1 performs the test from semi-squat position at 90° knee angle and hands on the hips and trunk as vertical as possible.
  • the person jumps up as explosively as possible holding hands on the hips and extending the hips and knees.
  • the person should land with the balls of the feet keeping the knees straight at the point of landing.
  • a static jump test may be made also with extra weights that the person 1 carries.
  • CMJ counter movement jump test
  • DJ drop jump test
  • the person 1 jumps from stairs or a podium several times from different heights. During the jumps the person keeps the hands on the hips. The person should land on the reaction area with straight knees on the balls of the feet. Then the person should squat down immediately and jump up as explosively as possible. Landing should be done in the same manner as in the static jump test or counter movement jump test.
  • Elasticity of the person 1 can be calculated from measurement results of the counter movement jump test and the static jump test.
  • a reactivity (stiffness) test the person 1 performs several explosive jump tests. The person keeps knees as straight as possible and lands on the reaction area with the balls of the feet with stiff ankles. The person should use a forceful upward motion of the arms during the jump. The idea of the test is to keep the ground contact time as short as possible while maximizing the flight time.
  • a take-off reaction test the person 1 stands on the reaction area knees slightly bent, hands resting on the hips and head up facing the vertical self-supporting measurement box 2 .
  • the person reacts to a signal of signal light 2 a or 2 b of the vertical self-supporting measurement box 2 by taking a direction step with the leg in the direction of the signal light 2 a or 2 b .
  • the person steps outside the reaction area while simultaneously pivoting and pushing of with the opposite leg. After that the person accelerates as hard as possible and crosses a reaction or timing line drawn by the pattern projector 4 .
  • the test is repeated several times in both directions.
  • optical measurement system 10 depicted in FIG. 1 a can be measured at least a response time and response force of the person 1 that has got the movement command. From the measurement data may be analysed for example a physiological recovery state of a person, ground contact time, reaction time, stride angle, speed and explosive strength, acceleration and speed, quickness and agility, step length, unbalance index and body composition.
  • FIG. 1 b depicts an optical measurement system 60 according to the invention that may be utilized for acceleration and speed tests.
  • the pattern projector 4 draws boundary at least two reaction lines 66 a and 66 b on the ground surface 9 ( FIG. 2 ).
  • the reaction lines 66 a and 66 b are advantageously drawn so wide that it is easy to hit the foot 61 a on the drawn reaction line 66 a and 66 b .
  • the pattern projector 4 utilizes a predetermined band of visible light 64 a and 64 b when drawing the reaction lines 66 a and 66 b .
  • FIG. 1 b it can be seen that a person 61 is running and crossing at least two reaction lines 66 a and 66 b that are visible to the person 61 .
  • the reaction lines 66 a and 66 b are illuminated also from a monochromatic light source 5 .
  • the monochromatic light source 5 illuminates (references 65 a and 65 b ) at least same areas of the two reaction lines 66 a and 66 b that the pattern projector 4 has drawn.
  • the utilized wave length of the monochromatic light source 5 is advantageously outside the predetermined band of visible light 64 a and 64 b that the pattern projector 4 utilizes.
  • the invention is not limited only to two reaction lines.
  • the self-supporting equipment box 2 may comprise two cameras side by side. By two cameras it is possible to define a distance to the person 61 during a test situation.
  • the camera 3 or cameras can take pictures at least a wave length 63 a that is advantageously equal to the wave length 65 a and 65 b that the monochromatic light source 5 transmits.
  • the camera 3 is an infrared light camera.
  • the invention is not limited to utilize an infrared light camera. Also a camera functioning on visible light band may be utilized.
  • the operating rate of the camera 3 is high enough to detect a contact time of the foot 1 a of the person 61 on the reaction lines 66 a and 66 b .
  • the operating rate of the camera may advantageously be only some ⁇ seconds.
  • the ground contact time calculation begins when the foot 1 a comes from above and touches the ground 9 on the reaction lines 66 a and 66 b .
  • the camera 3 detects this event when the foot 61 a intersects the drawn reaction lines 66 a and 66 b that also the monochromatic light illuminated source 5 has illuminated.
  • the ending time of the ground contact time the camera 3 detects when the foot 61 a rises from the ground surface 9 above the illuminated plane that the monochromatic light source 5 has imaged above the reaction lines 66 a and 66 b.
  • An acceleration and speed test depicts an ability of the person 61 to take-off, to accelerate and to sprint.
  • the acceleration test may vary from 5 to 10 meters.
  • a test to measure transition to speed phase may be between 10 to 30 metres and maximum speed test are usually up to 60 meters.
  • the optical systems of the vertical self-supporting equipment box 2 advantageously draws several parallel reaction lines on the ground.
  • the person 61 starts the test he or she crosses the first reaction line 66 a by the foot 61 a . This starts the clock belonging to the vertical self-supporting equipment box 2 .
  • the person 61 a may cross several reaction lines (not shown in FIG. 1 b ). Each crossing time the clock saves a time mark.
  • the person 61 crosses the last reaction line 66 b and the clock stops and the starting time, all crossing times and the stopping time are utilized in the acceleration and speed calculations.
  • FIG. 1 c depicts a third advantageous optical measurement system 70 according to the invention that may be utilized for acceleration and speed tests.
  • the pattern projector 4 draws boundary a reaction lines 76 a and a reaction area 76 on the ground surface 9 ( FIG. 2 ).
  • the reaction area 76 in the running direction is advantageously wider than the step length of the person 71 under test.
  • the width of the reaction area 76 can advantageously be adapted to a known step length of the person 71 .
  • the pattern projector 4 utilizes a predetermined band of visible light 74 a and 74 b when drawing the reaction line 76 a and the borderlines of the reaction area 76 .
  • FIG. 1 c it can be seen that a person 71 is starting his or hers run. In the starting moment his or hers foot 71 a crosses the reaction line 76 a that is visible to the person 71 .
  • the reaction line 76 a and the reaction area 76 are illuminated also from a monochromatic light source 5 .
  • the monochromatic light source 5 illuminates (references 75 a and 75 b ) at least the reaction line 76 a and the reaction area 76 that the pattern projector 4 has drawn wholly.
  • the utilized wave length of the monochromatic light source 5 is advantageously outside the predetermined band of visible light 74 a and 74 b that the pattern projector 4 utilizes.
  • the self-supporting equipment box 2 may comprise two cameras side by side. By two cameras it is possible to define a distance to the person 71 during a test situation.
  • the camera 3 or cameras can take pictures at least a wave length 73 a that is advantageously equal to the wave length 75 a and 75 b that the monochromatic light source 5 transmits.
  • the camera 3 is an infrared light camera.
  • the invention is not limited to utilize an infrared light camera. Also a camera functioning on visible light band may be utilized.
  • the operating rate of the camera 3 is high enough to detect a contact time of the foot 71 a of the person 1 on the reaction line 76 a and on the reaction area 76 .
  • the ground contact time calculation begins when the foot 71 a comes from above and touches the ground 9 either on the reaction line 76 a or reaction area 76 .
  • the camera 3 detects this event when the foot 71 a intersects the illuminated plane that the monochromatic light source 5 has imaged above the reaction line 76 a and the reaction area 76 .
  • the ending time of the ground contact time the camera 3 detects when the foot 71 a rises from the ground surface above the illuminated plane that the monochromatic light source 5 has imaged above the reaction line 76 a and the reaction area 76 .
  • FIG. 2 shows the exemplary vertical self-supporting equipment box 2 as seen from side. It stays on the ground 9 .
  • a data processing device 20 Inside vertical self-supporting equipment box 2 is depicted a data processing device 20 .
  • the data processing device 20 controls the functioning of the camera 3 , the reaction pattern projector 4 and the monochromatic light source 5 .
  • the data processing device 20 may advantageously define a utilized size of the created reaction pattern area 6 by giving control commands to the camera 3 , reaction pattern projector 4 and monochromatic lights source 5 .
  • the data processing device 20 advantageously direct the monochromatic light source 5 that the illuminated plane intersects the ground plane 9 beyond the border lines 6 a of the reaction area 6 .
  • FIG. 3 shows, by way of example, the functional main parts of a data processing device 20 that controls functioning of the vertical self-supporting equipment box 2 .
  • the data processing device 20 uses an antenna (not shown in FIG. 3 ) in the transmission and reception of signals with the wireless communication device 7 .
  • the radio interface components 25 advantageously comprises communication means needed in Bluetooth®, ZigBee® or WLAN connections with the wireless communication device 7 .
  • the data processing device 20 is a central processing unit 21 that controls operations of the camera 3 , pattern projector 4 and monochromatic light source 5 . It controls also functioning of the memory 22 , in which the software application required in the implementation of the measurement method according to the invention can advantageously be stored. Also the measurement results may be stored at least temporally in the memory 22 .
  • FIG. 3 is shown also an optional second camera 30 that may be utilized in tests.
  • the data processing device 20 may also comprise a user interface 24 . It comprises at least a display and some functional buttons.
  • the data processing device 20 comprises also a battery 23 .
  • the processor 21 , camera 3 , pattern projector 4 and monochromatic light source 5 get electrical energy needed in function from the battery 23 .
  • FIG. 4 the main steps of the method according to the invention when making different kind of jump test are shown as an exemplary flow chart.
  • the measurement process starts in step 40 a where a user of the physical coaching arrangement according to the invention activates the measurement system 10 advantageously by giving a starting command by a wireless communication device 7 .
  • the user of the wireless communication device 7 may advantageously define also a size of the reaction area 6 .
  • the wireless communication device retrieves size information that is needed for defining the size of the reaction area 6 from the cloud database 8 .
  • the wireless communication device 7 may advantageously also retrieve earlier measurement results of the person 1 to be tested.
  • step 40 a it is also selected a test method for the test session.
  • Some alternatives of possible physical tests are a static jump test, counter movement jump test, drop jump test, elasticity reactivity (stiffness) test, take-off reaction test and T-test.
  • step 41 the central processing unit 21 of the data processing device 20 in the vertical self-supporting equipment box 2 starts the pattern projector 4 , monochromatic light source 5 and camera 3 .
  • the central processing unit 21 advantageously aligns angle of views of the pattern projector 4 , monochromatic light source 5 and camera 3 so that they are compatible in the test session to be started.
  • the test process moves to concurrent steps 42 , 43 and 44 where the pattern projector 4 , monochromatic light source 5 and camera 3 are in active state.
  • step 42 the pattern projector 4 draws boundary lines 6 a of the defined reaction area 6 . Time to time it is checked if the measurement session is in active state in step 42 a . If the checking result is that the pattern projector 4 should not be stopped, the process returns back to step 42 .
  • step 43 the monochromatic light source 5 illuminates defined reaction area 6 . Time to time it is checked if the measurement session is in active state in step 43 a.
  • step 43 If the checking result is that illumination of the reaction area 6 should not be stopped, the process returns back to step 43 .
  • step 44 the camera 3 is taking pictures that include the whole area of the reaction area 6 .
  • the camera 3 is sensitive to at least the wavelength of the monochromatic light source 5 .
  • the following steps depict a situation where the person is accomplishing a T-test that measures the person's ability to react to a given stimulus. In other alternative tests the measurement process may in some details vary from the method steps of the T-test depicted in the description below.
  • step 45 the person 1 under test steps on the reaction area 6 and after that by one of the signalling lights 2 a or 2 b a movement direction command is given to the person 1 .
  • the starting of the signalling light 2 a or 2 b starts a chronometer that records a starting time of the measurement session.
  • the starting time mark is advantageously saved in the memory 22 of the data processing device 20 .
  • the camera 3 advantageously receives picture data from which the foot 1 a of the person may be detected at least at the moment when the foot intersects the illumination plane that the monochromatic light source 5 has been created above the reaction area 6 .
  • Step 46 discloses at least two sub-steps.
  • a place of the foot 1 a on the reaction area 6 is defined from picture data of camera 3 .
  • a first time mark defining a ground contact of the foot 1 a is defined when the foot 1 a intersect the illumination plane that the monochromatic light source 5 has created. The first time mark is then stored in the memory 22 of the data processing device 20 .
  • a second time mark is defined when the foot 1 a rises from the ground so high that the foot 1 a does not anymore intersect the illumination plane that the monochromatic light source 5 has created. Also the second time mark is stored in the memory 22 of the data processing device 20 .
  • step 47 the data processing device 20 calculates from the starting time mark, the first time mark and second time mark at least a ground contact time and/or reaction time of the person under test.
  • the data processing device 20 stores the at least temporary calculated ground contact and reaction times to the memory 22 .
  • the data processing device 20 sends at least the calculated ground contact and reaction times via the radio interface component 25 to the wireless communication device 7 .
  • step 48 After data transmission to the wireless communication device 7 it is checked if all needed measurements are made in step 48 . If the answer in step 48 is “NO” then a command to the pattern projector 4 and monochromatic light source 5 is sent not to stop functioning message (steps 42 a and 43 a ).
  • step 48 If the answer in step 48 is “YES” then the pattern projector 4 and monochromatic light source 5 will not receive commands not to stop functioning message (steps 42 a and 43 a ). In the next checking moment in steps 42 a and 43 a the pattern projector 4 and monochromatic light source 5 will be shut down for saving energy of the battery 23 of the vertical self-supporting equipment box 2 .
  • step 49 it is first checked that measurement results are transferred from memory 22 of the data processing device 20 to the wireless communication device 7 . If the transfer has been made, then also the camera 3 is shut down and measurement session ends in step 40 b.
  • the method steps comprises at least one method step to define foots rising from the ground and another method step to define foots landing to the ground.
  • Some tests may comprise several jumps one after the other. In those tests each rising time and landing time of the foot is detected and utilized in calculating for example ground contact and reaction times.
  • FIG. 5 In an exemplary flow chart of FIG. 5 the main steps of the method according to the invention are shown when making acceleration and speed tests by utilizing the measurement system of FIG. 1 b or 1 c.
  • the measurement process starts in step 50 a where a user of the physical coaching arrangement according to the invention activates the measurement system 60 advantageously by giving a starting command by a wireless communication device 7 .
  • a wireless communication device 7 advantageously in step 50 a it is also selected a test method for the acceleration and speed session.
  • step 51 the central processing unit 21 of the data processing device 20 in the vertical self-supporting equipment box 2 starts the pattern projector 4 , monochromatic light source 5 and camera 3 .
  • the central processing unit 21 advantageously aligns angle of views of the pattern projector 4 , monochromatic light source 5 and camera 3 so that they are compatible in the test session to be started.
  • the test process moves to concurrent steps 52 , 53 and 54 where the pattern projector 4 , monochromatic light source 5 and camera 3 are in active state.
  • step 52 the pattern projector 4 draws reaction lines 66 a and 66 b or the reaction line 76 a and the reaction area 76 on the ground. Time to time it is checked if the measurement session is in active state in step 52 a . If the checking result is that the pattern projector 4 should not be stopped, the process return back to step 52 .
  • step 53 the monochromatic light source 5 illuminates the areas 66 a and 66 b or the reaction line 76 a and the reaction area 76 that the pattern projector 4 has drawn.
  • step 53 a Time to time it is checked if the measurement session is in active state in step 53 a . If the checking result is that illumination of the reaction lines and reaction area should not be stopped, the process return back to step 53 .
  • step 54 the camera 3 is taking pictures that include at least the areas 66 a and 66 b or the reaction line 76 a and the reaction area 76 drawn by the pattern projector 4 .
  • the camera 3 is sensitive to at least the wavelength of the monochromatic light source 5 .
  • step 55 the person 61 or 71 under test accelerates over a first reaction line 66 a or 76 a and after a command given by the signalling lights of the self-supporting equipment box 2 .
  • the starting time mark is advantageously saved in the memory 22 of the data processing device 20 .
  • the camera 3 advantageously receives picture data from which the foot 61 a of the person 61 or the foot 71 a of the person 71 may be detected at least at the moment when the foot intersects the illumination plane that the monochromatic light source 5 has been created above the first reaction line 66 a or 76 a.
  • Step 56 discloses at least two sub-steps.
  • a place of the foot 61 a or 71 a crossing the reaction line 66 a or 76 a is defined from picture data of camera 3 .
  • a first time mark defining is defined when the foot 61 a or 71 a intersect the illumination plane that the monochromatic light source 5 has created over the first reaction line 66 a or 76 a .
  • the first time mark is then stored in the memory 22 of the data processing device 20 .
  • a second time mark is defined when the foot 61 a crosses either another reaction line, for example reaction line 66 b in FIG. 1 b or arrives to the reaction area 76 in FIG. 1 c .
  • the second time mark is stored in the memory 22 of the data processing device 20 .
  • other time marks can be defined and saved correspondingly.
  • step 57 the data processing device 20 calculates from the starting time mark, and other time marks acceleration and speed of the person 61 under test.
  • the data processing device 20 stores the at least temporary calculated acceleration and speed values to the memory 22 .
  • the data processing device 20 sends at least the calculated ground acceleration and speed values via the radio interface component 25 to the wireless communication device 7 .
  • step 58 After data transmission to the wireless communication device 7 it is checked if all needed acceleration and speed measurements are made in step 58 . If the answer in step 48 is “NO”, then a command to the pattern projector 4 and monochromatic light source 5 is sent not to stop functioning message (steps 52 a and 53 a ).
  • step 58 If the answer in step 58 is “YES”, then the pattern projector 4 and monochromatic light source 5 will not receive commands not to stop functioning message (steps 52 a and 53 a ). In the next checking moment in steps 52 a and 53 a the pattern projector 4 and monochromatic light source 5 will be shut down for saving energy of the battery 23 of the vertical self-supporting equipment box 2 .
  • step 59 first it is checked that measurement results are transferred from memory 22 of the data processing device 20 to the wireless communication device 7 . If the transfer has been made, then also the camera 3 is shut down and the acceleration and speed measurement session ends in step 40 b.
  • any of the steps described or illustrated in FIGS. 4 and 5 may be implemented using executable instructions in a general-purpose or special-purpose processor and stored on a computer-readable storage medium (e.g., disk, memory, or the like) to be executed by such a processor.
  • a computer-readable storage medium e.g., disk, memory, or the like
  • references to ‘computer-readable storage medium’ and ‘computer’ should be understood to encompass specialized circuits such as field-programmable gate arrays, application-specific integrated circuits (ASICs), USB flash drives, signal processing devices, and other devices.
  • the cloud database 8 may be accomplished by one or more servers. Each server has one or more processors.
  • the processor or processor means can comprise an arithmetic logic unit, a group of different registers and control circuits.
  • a data storing arrangement such as a memory unit or memory means, whereon computer-readable information or programs or user information can be stored, has been connected to the processor means.
  • the memory means typically contain memory units, which allow both reading and writing functions (Random Access Memory, RAM), and memory units containing non-volatile memory, from which data can only be read (Read Only Memory, ROM).
  • the measurement data and calculated reaction and ground contact times are advantageously stored in the memory.

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PCT/FI2018/050258 WO2018189420A1 (fr) 2017-04-10 2018-04-10 Appareil, procédé et application logicielle pour accompagnement physique

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US20160058649A1 (en) 2014-09-01 2016-03-03 National Taiwan University Rehabilitation device with pace pattern projecting function and seat structure and control method thereof

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EP3609403B1 (fr) 2023-07-12
US20200029864A1 (en) 2020-01-30
CN110709010B (zh) 2021-06-08
EP3609403A1 (fr) 2020-02-19
CN110709010A (zh) 2020-01-17
WO2018189420A1 (fr) 2018-10-18
EP3609403C0 (fr) 2023-07-12
FI127962B (en) 2019-06-14

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